Effects of Heating and Cooling on Nerve Terminal Impulses Recorded from Cold-sensitive Receptors in the Guinea-pig Cornea

doi:10.1085/jgp.200308814

Published online 14 April 2003 doi:10.1085/jgp.200308814

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© Rockefeller University Press, 0022-1295/2003/5/427/ $5.00
Journal of General Physiology, Volume 121, Number 5, May 2003 427-439
Effects of Heating and Cooling on Nerve Terminal Impulses Recorded from Cold-sensitive Receptors in the Guinea-pig Cornea

Richard W. Carr¹, Svetlana Pianova¹, Juana Fernandez², James B. Fallon¹, Carlos Belmonte² and James A. Brock¹

¹ Prince of Wales Medical Research Institute, University of New South Wales, Randwick, Sydney, NSW 2035, Australia
² Instituto de Neurociencias, Universidad Miguel Hernandez-Consejo Superior de Investigaciones Cientificas, 03550 San Juan de Alicante, Spain

Address correspondence to James Brock, Prince of Wales Medical Research Institute, Barker St., Randwick, NSW 2035, Australia. Fax: (61) 2 9382 2723; E-mail: j.brock{at}unsw.edu.au

An in vitro preparation of the guinea-pig cornea was used tostudy the effects of changing temperature on nerve terminalimpulses recorded extracellularly from cold-sensitive receptors.At a stable holding temperature (31–32.5°C), coldreceptors had an ongoing periodic discharge of nerve terminalimpulses. This activity decreased or ceased with heating andincreased with cooling. Reducing the rate of temperature changereduced the respective effects of heating and cooling on nerveterminal impulse frequency. In addition to changes in the frequencyof activity, nerve terminal impulse shape also changed withheating and cooling. At the same ambient temperature, nerveterminal impulses were larger in amplitude and faster in timecourse during heating than those recorded during cooling. Themagnitude of these effects of heating and cooling on nerve terminalimpulse shape was reduced if the rate of temperature changewas slowed. At 29, 31.5, and 35°C, a train of 50 electricalstimuli delivered to the ciliary nerves at 10–40 Hz produceda progressive increase in the amplitude of successive nerveterminal impulses evoked during the train. Therefore, it isunlikely that the reduction in nerve terminal impulse amplitudeobserved during cooling is due to the activity-dependent changesin the nerve terminal produced by the concomitant increase inimpulse frequency. Instead, the differences in nerve terminalimpulse shape observed at the same ambient temperature duringheating and cooling may reflect changes in the membrane potentialof the nerve terminal associated with thermal transduction.

Key Words: action potential • thermal transduction • sensory receptor • extracellular recording

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